de.mklinger.qetcher.client.jetty.http.GZIPContentDecoder Maven / Gradle / Ivy
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//
// ========================================================================
// Copyright (c) 1995-2018 Mort Bay Consulting Pty. Ltd.
// ------------------------------------------------------------------------
// All rights reserved. This program and the accompanying materials
// are made available under the terms of the Eclipse Public License v1.0
// and Apache License v2.0 which accompanies this distribution.
//
// The Eclipse Public License is available at
// http://www.eclipse.org/legal/epl-v10.html
//
// The Apache License v2.0 is available at
// http://www.opensource.org/licenses/apache2.0.php
//
// You may elect to redistribute this code under either of these licenses.
// ========================================================================
//
package org.eclipse.jetty.http;
import java.nio.ByteBuffer;
import java.util.zip.DataFormatException;
import java.util.zip.Inflater;
import java.util.zip.ZipException;
import org.eclipse.jetty.io.ByteBufferPool;
import org.eclipse.jetty.util.BufferUtil;
import org.eclipse.jetty.util.component.Destroyable;
/**
* Decoder for the "gzip" encoding.
*
* A decoder that inflates gzip compressed data that has been
* optimized for async usage with minimal data copies.
*/
public class GZIPContentDecoder implements Destroyable
{
private final Inflater _inflater = new Inflater(true);
private final ByteBufferPool _pool;
private final int _bufferSize;
private State _state;
private int _size;
private int _value;
private byte _flags;
private ByteBuffer _inflated;
public GZIPContentDecoder()
{
this(null,2048);
}
public GZIPContentDecoder(int bufferSize)
{
this(null,bufferSize);
}
public GZIPContentDecoder(ByteBufferPool pool, int bufferSize)
{
_bufferSize = bufferSize;
_pool = pool;
reset();
}
/** Inflate compressed data from a buffer.
*
* @param compressed Buffer containing compressed data.
* @return Buffer containing inflated data.
*/
public ByteBuffer decode(ByteBuffer compressed)
{
decodeChunks(compressed);
if (BufferUtil.isEmpty(_inflated) || _state==State.CRC || _state==State.ISIZE )
return BufferUtil.EMPTY_BUFFER;
ByteBuffer result = _inflated;
_inflated = null;
return result;
}
/** Called when a chunk of data is inflated.
*
The default implementation aggregates all the chunks
* into a single buffer returned from {@link #decode(ByteBuffer)}.
* Derived implementations may choose to consume chunks individually
* and return false to prevent further inflation until a subsequent
* call to {@link #decode(ByteBuffer)} or {@link #decodeChunks(ByteBuffer)}.
*
* @param chunk The inflated chunk of data
* @return False if inflating should continue, or True if the call
* to {@link #decodeChunks(ByteBuffer)} or {@link #decode(ByteBuffer)}
* should return, allowing back pressure of compressed data.
*/
protected boolean decodedChunk(ByteBuffer chunk)
{
if (_inflated==null)
{
_inflated=chunk;
}
else
{
int size = _inflated.remaining() + chunk.remaining();
if (size<=_inflated.capacity())
{
BufferUtil.append(_inflated,chunk);
release(chunk);
}
else
{
ByteBuffer bigger=acquire(size);
int pos=BufferUtil.flipToFill(bigger);
BufferUtil.put(_inflated,bigger);
BufferUtil.put(chunk,bigger);
BufferUtil.flipToFlush(bigger,pos);
release(_inflated);
release(chunk);
_inflated = bigger;
}
}
return false;
}
/**
* Inflate compressed data.
*
Inflation continues until the compressed block end is reached, there is no
* more compressed data or a call to {@link #decodedChunk(ByteBuffer)} returns true.
* @param compressed Buffer of compressed data to inflate
*/
protected void decodeChunks(ByteBuffer compressed)
{
ByteBuffer buffer = null;
try
{
while (true)
{
switch (_state)
{
case INITIAL:
{
_state = State.ID;
break;
}
case FLAGS:
{
if ((_flags & 0x04) == 0x04)
{
_state = State.EXTRA_LENGTH;
_size = 0;
_value = 0;
}
else if ((_flags & 0x08) == 0x08)
_state = State.NAME;
else if ((_flags & 0x10) == 0x10)
_state = State.COMMENT;
else if ((_flags & 0x2) == 0x2)
{
_state = State.HCRC;
_size = 0;
_value = 0;
}
else
{
_state = State.DATA;
continue;
}
break;
}
case DATA:
{
while (true)
{
if (buffer==null)
buffer = acquire(_bufferSize);
try
{
int length = _inflater.inflate(buffer.array(),buffer.arrayOffset(),buffer.capacity());
buffer.limit(length);
}
catch (DataFormatException x)
{
throw new ZipException(x.getMessage());
}
if (buffer.hasRemaining())
{
ByteBuffer chunk = buffer;
buffer = null;
if (decodedChunk(chunk))
return;
}
else if (_inflater.needsInput())
{
if (!compressed.hasRemaining())
return;
if (compressed.hasArray())
{
_inflater.setInput(compressed.array(),compressed.arrayOffset()+compressed.position(),compressed.remaining());
compressed.position(compressed.limit());
}
else
{
// TODO use the pool
byte[] input = new byte[compressed.remaining()];
compressed.get(input);
_inflater.setInput(input);
}
}
else if (_inflater.finished())
{
int remaining = _inflater.getRemaining();
compressed.position(compressed.limit() - remaining);
_state = State.CRC;
_size = 0;
_value = 0;
break;
}
}
continue;
}
default:
break;
}
if (!compressed.hasRemaining())
break;
byte currByte = compressed.get();
switch (_state)
{
case ID:
{
_value += (currByte & 0xFF) << 8 * _size;
++_size;
if (_size == 2)
{
if (_value != 0x8B1F)
throw new ZipException("Invalid gzip bytes");
_state = State.CM;
}
break;
}
case CM:
{
if ((currByte & 0xFF) != 0x08)
throw new ZipException("Invalid gzip compression method");
_state = State.FLG;
break;
}
case FLG:
{
_flags = currByte;
_state = State.MTIME;
_size = 0;
_value = 0;
break;
}
case MTIME:
{
// Skip the 4 MTIME bytes
++_size;
if (_size == 4)
_state = State.XFL;
break;
}
case XFL:
{
// Skip XFL
_state = State.OS;
break;
}
case OS:
{
// Skip OS
_state = State.FLAGS;
break;
}
case EXTRA_LENGTH:
{
_value += (currByte & 0xFF) << 8 * _size;
++_size;
if (_size == 2)
_state = State.EXTRA;
break;
}
case EXTRA:
{
// Skip EXTRA bytes
--_value;
if (_value == 0)
{
// Clear the EXTRA flag and loop on the flags
_flags &= ~0x04;
_state = State.FLAGS;
}
break;
}
case NAME:
{
// Skip NAME bytes
if (currByte == 0)
{
// Clear the NAME flag and loop on the flags
_flags &= ~0x08;
_state = State.FLAGS;
}
break;
}
case COMMENT:
{
// Skip COMMENT bytes
if (currByte == 0)
{
// Clear the COMMENT flag and loop on the flags
_flags &= ~0x10;
_state = State.FLAGS;
}
break;
}
case HCRC:
{
// Skip HCRC
++_size;
if (_size == 2)
{
// Clear the HCRC flag and loop on the flags
_flags &= ~0x02;
_state = State.FLAGS;
}
break;
}
case CRC:
{
_value += (currByte & 0xFF) << 8 * _size;
++_size;
if (_size == 4)
{
// From RFC 1952, compliant decoders need not to verify the CRC
_state = State.ISIZE;
_size = 0;
_value = 0;
}
break;
}
case ISIZE:
{
_value += (currByte & 0xFF) << 8 * _size;
++_size;
if (_size == 4)
{
if (_value != _inflater.getBytesWritten())
throw new ZipException("Invalid input size");
// TODO ByteBuffer result = output == null ? BufferUtil.EMPTY_BUFFER : ByteBuffer.wrap(output);
reset();
return ;
}
break;
}
default:
throw new ZipException();
}
}
}
catch (ZipException x)
{
throw new RuntimeException(x);
}
finally
{
if (buffer!=null)
release(buffer);
}
}
private void reset()
{
_inflater.reset();
_state = State.INITIAL;
_size = 0;
_value = 0;
_flags = 0;
}
@Override
public void destroy()
{
_inflater.end();
}
public boolean isFinished()
{
return _state == State.INITIAL;
}
private enum State
{
INITIAL, ID, CM, FLG, MTIME, XFL, OS, FLAGS, EXTRA_LENGTH, EXTRA, NAME, COMMENT, HCRC, DATA, CRC, ISIZE
}
/**
* @param capacity capacity capacity of the allocated ByteBuffer
* @return An indirect buffer of the configured buffersize either from the pool or freshly allocated.
*/
public ByteBuffer acquire(int capacity)
{
return _pool==null?BufferUtil.allocate(capacity):_pool.acquire(capacity,false);
}
/**
* Release an allocated buffer.
*
This method will called {@link ByteBufferPool#release(ByteBuffer)} if a buffer pool has
* been configured. This method should be called once for all buffers returned from {@link #decode(ByteBuffer)}
* or passed to {@link #decodedChunk(ByteBuffer)}.
* @param buffer The buffer to release.
*/
public void release(ByteBuffer buffer)
{
@SuppressWarnings("ReferenceEquality")
boolean isTheEmptyBuffer = (buffer==BufferUtil.EMPTY_BUFFER);
if (_pool!=null && !isTheEmptyBuffer)
_pool.release(buffer);
}
}